Merge pull request #241 from Quantum-Software-Development/FabianaCampanari-patch-2

Update README.md

Author: FabianaCampanari

README.md

@@ -272,9 +272,9 @@ Feel free to explore, contribute, and share your insights!
 
  The formula presented, $\huge \color{DeepSkyBlue} |\Phi^+\rangle = \frac{1}{\sqrt{2}}(|00\rangle + |11\rangle)$, describes one of the most well-known entangled states, called a **Bell state** or **maximally entangled state**. This state is fundamental in quantum computing theory and quantum cryptography, as in the case of Artur Ekert's protocol.
 
- - **$\huge |\Phi^+\rangle$**: Represents the quantum state vector in Dirac notation (also known as bra-ket notation). The state $|\Phi^+\rangle$ is one of the four Bell states, which are entangled qubit states.
+ - **$\huge \color{DeepSkyBlue} |\Phi^+\rangle$**: Represents the quantum state vector in Dirac notation (also known as bra-ket notation). The state $|\Phi^+\rangle$ is one of the four Bell states, which are entangled qubit states.
 
-- **$\frac{1}{\sqrt{2}}$**: This normalization factor is necessary to ensure that the total probability of measuring the system is 1. In quantum mechanics, the norm of the state vector (the sum of the squares of the probabilities of possible outcomes) must equal 1.
+- **$\huge \color{DeepSkyBlue} \frac{1}{\sqrt{2}}$**: This normalization factor is necessary to ensure that the total probability of measuring the system is 1. In quantum mechanics, the norm of the state vector (the sum of the squares of the probabilities of possible outcomes) must equal 1.